Study on Initiation Ability of Nano-AgN3 Synthesized by In-Situ Strategy

Yunfeng Li; Jie Ren; Mingyu Li; Qingxuan Zeng

doi:10.3233/ATDE230325

Study on Initiation Ability of Nano-AgN3 Synthesized by In-Situ Strategy

Yunfeng Li, Jie Ren, Mingyu Li^*, Qingxuan Zeng

^*Corresponding author for this work

School of Mechatronical Engineering

Beijing Institute of Technology

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

1 Citation (Scopus)

Abstract

Silver azide (AgN3) is one of the environmentally primary explosives with excellent initiation performances, and it can meet the demand for the miniaturization of modern weapon equipment. In this paper, nano-silver oxide (Ag2O) of 70 nm-90 nm was prepared by wet chemical method using polyvinylpyrrolidone (PVP) as a surfactant to synthesize nanoscale AgN3 by in-situ synthetic strategy. The analysis results demonstrated that the nano-AgN3 had a spherical distribution, and great initiation performance. The average velocity of the titanium (Ti) sheet impacted by AgN3 can reach more than 2600 m/s. In addition, the CL-20 explosive can be initiated stably and reliably by the AgN3 chip assembled in the micro-initiator. It provides a new technical route for the application of MEMS micro-initiator.

Original language	English
Title of host publication	Moving Integrated Product Development to Service Clouds in the Global Economy - Proceedings of the 21st ISPE Inc. International Conference on Concurrent Engineering, CE 2014
Editors	Chongqing Wang, Xiaoshuan Zhang, Hongyu Ren, Yingfa Lu
Publisher	IOS Press BV
Pages	480-484
Number of pages	5
ISBN (Electronic)	9781643684260
DOIs	https://doi.org/10.3233/ATDE230325
Publication status	Published - 5 Oct 2023
Event	4th International Conference on Green Energy, Environment and Sustainable Development, GEESD 2023 - Hybrid, Mianyang, China Duration: 15 Jun 2023 → 17 Jun 2023

Publication series

Name	Advances in Transdisciplinary Engineering
Volume	38
ISSN (Print)	2352-751X
ISSN (Electronic)	2352-7528

Conference

Conference	4th International Conference on Green Energy, Environment and Sustainable Development, GEESD 2023
Country/Territory	China
City	Hybrid, Mianyang
Period	15/06/23 → 17/06/23

Keywords

Silver azide
in-situ synthesis
nano-Ag2O
nanoscale explosives
primary explosive

Access to Document

10.3233/ATDE230325

Cite this

Li, Y., Ren, J., Li, M., & Zeng, Q. (2023). Study on Initiation Ability of Nano-AgN3 Synthesized by In-Situ Strategy. In C. Wang, X. Zhang, H. Ren, & Y. Lu (Eds.), Moving Integrated Product Development to Service Clouds in the Global Economy - Proceedings of the 21st ISPE Inc. International Conference on Concurrent Engineering, CE 2014 (pp. 480-484). (Advances in Transdisciplinary Engineering; Vol. 38). IOS Press BV. https://doi.org/10.3233/ATDE230325

Li, Yunfeng ; Ren, Jie ; Li, Mingyu et al. / Study on Initiation Ability of Nano-AgN3 Synthesized by In-Situ Strategy. Moving Integrated Product Development to Service Clouds in the Global Economy - Proceedings of the 21st ISPE Inc. International Conference on Concurrent Engineering, CE 2014. editor / Chongqing Wang ; Xiaoshuan Zhang ; Hongyu Ren ; Yingfa Lu. IOS Press BV, 2023. pp. 480-484 (Advances in Transdisciplinary Engineering).

@inproceedings{48a7784d6cba4401ab5ffe13727e40ee,

title = "Study on Initiation Ability of Nano-AgN3 Synthesized by In-Situ Strategy",

abstract = "Silver azide (AgN3) is one of the environmentally primary explosives with excellent initiation performances, and it can meet the demand for the miniaturization of modern weapon equipment. In this paper, nano-silver oxide (Ag2O) of 70 nm-90 nm was prepared by wet chemical method using polyvinylpyrrolidone (PVP) as a surfactant to synthesize nanoscale AgN3 by in-situ synthetic strategy. The analysis results demonstrated that the nano-AgN3 had a spherical distribution, and great initiation performance. The average velocity of the titanium (Ti) sheet impacted by AgN3 can reach more than 2600 m/s. In addition, the CL-20 explosive can be initiated stably and reliably by the AgN3 chip assembled in the micro-initiator. It provides a new technical route for the application of MEMS micro-initiator.",

keywords = "Silver azide, in-situ synthesis, nano-Ag2O, nanoscale explosives, primary explosive",

author = "Yunfeng Li and Jie Ren and Mingyu Li and Qingxuan Zeng",

note = "Publisher Copyright: {\textcopyright} 2023 IOS Press BV. All rights reserved.; 4th International Conference on Green Energy, Environment and Sustainable Development, GEESD 2023 ; Conference date: 15-06-2023 Through 17-06-2023",

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doi = "10.3233/ATDE230325",

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Li, Y, Ren, J , Li, M & Zeng, Q 2023, Study on Initiation Ability of Nano-AgN3 Synthesized by In-Situ Strategy. in C Wang, X Zhang, H Ren & Y Lu (eds), Moving Integrated Product Development to Service Clouds in the Global Economy - Proceedings of the 21st ISPE Inc. International Conference on Concurrent Engineering, CE 2014. Advances in Transdisciplinary Engineering, vol. 38, IOS Press BV, pp. 480-484, 4th International Conference on Green Energy, Environment and Sustainable Development, GEESD 2023, Hybrid, Mianyang, China, 15/06/23. https://doi.org/10.3233/ATDE230325

Study on Initiation Ability of Nano-AgN3 Synthesized by In-Situ Strategy. / Li, Yunfeng; Ren, Jie ; Li, Mingyu et al.
Moving Integrated Product Development to Service Clouds in the Global Economy - Proceedings of the 21st ISPE Inc. International Conference on Concurrent Engineering, CE 2014. ed. / Chongqing Wang; Xiaoshuan Zhang; Hongyu Ren; Yingfa Lu. IOS Press BV, 2023. p. 480-484 (Advances in Transdisciplinary Engineering; Vol. 38).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - Study on Initiation Ability of Nano-AgN3 Synthesized by In-Situ Strategy

AU - Li, Yunfeng

AU - Ren, Jie

AU - Li, Mingyu

AU - Zeng, Qingxuan

PY - 2023/10/5

Y1 - 2023/10/5

N2 - Silver azide (AgN3) is one of the environmentally primary explosives with excellent initiation performances, and it can meet the demand for the miniaturization of modern weapon equipment. In this paper, nano-silver oxide (Ag2O) of 70 nm-90 nm was prepared by wet chemical method using polyvinylpyrrolidone (PVP) as a surfactant to synthesize nanoscale AgN3 by in-situ synthetic strategy. The analysis results demonstrated that the nano-AgN3 had a spherical distribution, and great initiation performance. The average velocity of the titanium (Ti) sheet impacted by AgN3 can reach more than 2600 m/s. In addition, the CL-20 explosive can be initiated stably and reliably by the AgN3 chip assembled in the micro-initiator. It provides a new technical route for the application of MEMS micro-initiator.

AB - Silver azide (AgN3) is one of the environmentally primary explosives with excellent initiation performances, and it can meet the demand for the miniaturization of modern weapon equipment. In this paper, nano-silver oxide (Ag2O) of 70 nm-90 nm was prepared by wet chemical method using polyvinylpyrrolidone (PVP) as a surfactant to synthesize nanoscale AgN3 by in-situ synthetic strategy. The analysis results demonstrated that the nano-AgN3 had a spherical distribution, and great initiation performance. The average velocity of the titanium (Ti) sheet impacted by AgN3 can reach more than 2600 m/s. In addition, the CL-20 explosive can be initiated stably and reliably by the AgN3 chip assembled in the micro-initiator. It provides a new technical route for the application of MEMS micro-initiator.

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BT - Moving Integrated Product Development to Service Clouds in the Global Economy - Proceedings of the 21st ISPE Inc. International Conference on Concurrent Engineering, CE 2014

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PB - IOS Press BV

T2 - 4th International Conference on Green Energy, Environment and Sustainable Development, GEESD 2023

Y2 - 15 June 2023 through 17 June 2023

ER -

Li Y, Ren J , Li M , Zeng Q. Study on Initiation Ability of Nano-AgN3 Synthesized by In-Situ Strategy. In Wang C, Zhang X, Ren H, Lu Y, editors, Moving Integrated Product Development to Service Clouds in the Global Economy - Proceedings of the 21st ISPE Inc. International Conference on Concurrent Engineering, CE 2014. IOS Press BV. 2023. p. 480-484. (Advances in Transdisciplinary Engineering). doi: 10.3233/ATDE230325

Study on Initiation Ability of Nano-AgN3 Synthesized by In-Situ Strategy

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